Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dibutyryl cyclic GMP (Bu2cGMP) inhibited agonist-induced secretion of amylase from isolated rat pancreatic acini. In contrast to previous studies, this inhibitory action was not confined to butyryl derivatives of cyclic GMP, since the membrane-permeant cyclic GMP analogues Bu2cGMP and cyclic 8-bromo-GMP (8-Br-cGMP) were equipotent (IC50 2 nM) in their inhibition of amylase secretion stimulated by cholecystokinin-(26-33)-octapeptide (CCK8): at extracellular concentrations up to 1 mM, cyclic GMP itself was devoid of inhibitory activity. Both Bu2cGMP and 8-Br-cGMP also potently inhibited secretion stimulated by 4 beta-phorbol 12-myristate 13-acetate (PMA) (IC50 6 nM), but only partially inhibited responses elicited by bethanechol or bombesin and were without effect on A23187-evoked secretion. Furthermore, agents that are known to raise intracellular cyclic GMP levels (MB22948 (2-o-propoxyphenyl-8-azapurin-6-one) or nitroprusside) or antagonize the actions of protein kinase C (4 alpha-PMA or staurosporine), also inhibited CCK8- or PMA-stimulated secretion but not secretion elicited by bombesin, bethanechol, or A23187. It is concluded from these and other observations reported here that protein kinase C is the major intracellular mediator of amylase secretion stimulated by CCK8 and that this pathway may be regulated by cyclic GMP at a step that follows protein kinase C activation.
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PMID:Cyclic GMP inhibits protein kinase C-mediated secretion in rat pancreatic acini. 245 87

Pretreatment of guinea pig pancreatic acini with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) induced a time- and concentration-dependent down-regulation of protein kinase C. In control acini almost all of the protein kinase C activity was present in a cytosolic fraction. Incubation with TPA initially shifted protein kinase C activity to a particular fraction which then disappeared over the following 24-h incubation with TPA. To study the role of protein kinase C in stimulus-secretion coupling, acini were pretreated with TPA and then amylase release was studied in response to various secretagogues. Preincubation of acini with TPA led to a time- and concentration-dependent decrease in TPA-stimulated amylase release that correlated with protein kinase C downregulation. Preincubation of acini with 1 microM TPA for 24 h, resulting in complete loss of protein kinase C activity, abolished the secretory effect of subsequently added TPA. By contrast, the secretory effects of cholecystokinin octapeptide (CCK-8) and carbamylcholine chloride (CCh) were only inhibited by 44 and 34%, respectively, and amylase release stimulated by the Ca2+ ionophore A23187 and an adenosine 3',5'-cyclic monophosphate-mediated agonist, vasoactive intestinal peptide, was unaffected. Dose-response curves for CCK-8- or CCh-stimulated amylase release in TPA-pretreated acini revealed attenuation of both maximal efficacy and sensitivity. However, the CCh-stimulated intracellular Ca2+ increase as determined by use of the fluorescent probe fura-2 was not affected by the long-term TPA pretreatment of acini. This study strongly suggests that both protein kinase C and intracellular Ca2+ play a significant role in CCK-8- and CCh-stimulated amylase release.
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PMID:Downregulation of protein kinase C in guinea pig pancreatic acini: effects on secretion. 245 Apr 70

Quercetin (Q) has been shown to inhibit Ca2+-dependent processes. The present study evaluates the effect of Q on amylase release stimulated by various agonists in dispersed rat pancreatic acini. Q inhibited amylase release stimulated by an optimal concentration of carbachol. The inhibition was dependent on Q concentration. Preincubation with Q was not necessary. Maximal inhibition (up to 60% of control) was reached at 50 microM of Q and was completely reversible. Full responsiveness of the acini to agonist stimulation was reestablished as early as 5 min upon the removal of Q. At 50 microM, Q inhibited stimulated amylase release by optimal concentrations of tetradecanoylphorbol-13-acetate (TPA) (10(-6) M), A23187 (3 x 10(-6) M), cholecystokinin C-terminal octapeptide (CCK-OP) (10(-9) M) and carbachol (3 x 10(-6) M), but not by vasoactive intestinal polypeptide (VIP) (3 x 10(-7) M). Instead, Q promoted amylase release stimulated by VIP. The inhibition of amylase secretion by Q occurred only at near optimal, optimal, and supraoptimal concentrations of TPA, A23187, CCK-OP, and carbachol. The potentiation effect of Q on VIP-stimulated amylase secretion was, however, seen at all concentrations of VIP used (10(-8) to 10(-6) M). Quercetin also inhibited protein kinase C activity from rat pancreas in a dose-dependent manner. Maximal inhibition (approximately 85%) was seen at 100 microM of Q. These results provide further support that the intermediary steps for stimulated enzyme secretion in pancreatic acini by TPA, A23187, CCK-OP, and carbachol involve calmodulin and/or protein kinase C, whereas VIP does not.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Selectivity of quercetin inhibition on stimulated amylase release in rat pancreatic acini. 245 93

The incubation of isolated rat pancreatic acini with low doses (1 x 10(-11)-1 x 10(-10) M) of cholecystokinin-octapeptide (CCK8) induced amylase release. This CCK8-induced amylase release has been shown to be mediated through the protein kinase C activation and the Ca2+ mobilization which are linked to the phospholipase C-mediated hydrolysis of phosphoinositides. However, the incubation of the acini with high doses (1 x 10(-9)-1 x 10(-7) M) of CCK8 reduced amylase release to the level less than that induced by the maximally effective dose (1 x 10(-10) M) of this secretagogue. Under the same conditions, the high doses of this secretagogue did not inhibit the phospholipase C-mediated hydrolysis of phosphoinositides. The stimulatory action of the maximally effective dose of CCK8 in amylase release was mimicked by the simultaneous addition of protein kinase C-activating 12-O-tetradecanoylphorbol-13-acetate (TPA) and Ca2+ ionophore A23187. A high dose (1 x 10(-7) M) of CCK8 reduced the amylase release induced by the combination of TPA and A23187. These results suggest that the high doses of CCK8 inhibit the secretory process post to the protein kinase C-Ca2+ systems and thereby reduce the amylase release induced by the maximally effective dose of CCK8 in rat pancreatic acini.
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PMID:Mode of inhibitory action of cholecystokinin in amylase release from isolated rat pancreatic acini--inhibition of secretory process post to protein kinase C-calcium ion systems. 245 69

In pancreatic acini, cGMP can be increased by secretagogues such as cholecystokinin (CCK), cholinergic agents, and bombesin, whose actions on enzyme secretion are believed to be mediated by protein kinase C. However, the role of cGMP in acinar cell function has been unclear. A recent paper by Rogers et al. (Rogers, J., Hughes, R.G., and Matthews, E. K. (1988) J. Biol. Chem. 263, 3713-3719) reported that two analogues of cGMP, N2,O2-dibutyl guanosine 3':5'-monophosphate (Bt2cGMP) and 8-bromoguanosine 3':5'-monophosphate (8Br-cGMP), at concentrations in the nanomolar range, inhibited the stimulation of amylase secretion caused by CCK-8, bethanechol, bombesin, and 12-O-tetradecanoylphorbol-13-acetate (TPA). Rogers et al. also reported that sodium nitroprusside inhibited the stimulation of enzyme secretion caused by CCK-8 or TPA. These authors concluded that cGMP inhibits protein kinase C-mediated secretion in pancreatic acini. In the present study we attempted to confirm the findings of Rogers et al., We found, however, that Bt2cGMP inhibited CCK-8-stimulated amylase release only at concentrations of the nucleotide above 10 microM. Moreover, there was a close correlation between the ability of Bt2cGMP to inhibit CCK-8-stimulated amylase release and its ability to inhibit binding of 125I-CCK-8. Bt2cGMP, at concentrations as high as 3 mM, did not alter the stimulation of amylase release caused by carbachol, bombesin, TPA, or A23187. 8Br-cGMP, at concentrations up to 1 mM, did not inhibit the stimulation of amylase release caused by CCK-8 or TPA. At concentrations above 0.1 mM, 8Br-cGMP augmented the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Sodium nitroprusside, at a concentration that causes a 60-fold increase in cGMP, did not inhibit the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Our results do not confirm the findings of Rogers et al. and indicate that cGMP does not inhibit protein kinase C-mediated secretion in pancreatic acini.
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PMID:Cyclic GMP does not inhibit protein kinase C-mediated enzyme secretion in rat pancreatic acini. 246 55

The effects of staurosporine, a recently isolated microbial alkaloid, on amylase secretion and protein kinase C activity of guinea pig pancreatic acini were investigated. Staurosporine at a concentration of 1 microM completely inhibited both acinar protein kinase C activity (IC50 = 5.5 +/- 1.4 nM) and amylase secretion induced by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) (IC50 = 4.1 +/- 0.4 nM). At this concentration, staurosporine reduced amylase secretion elicited by maximally effective concentrations of carbachol and cholecystokinin by approximately 50% but did not appreciably alter the potencies of the two secretagogues. In the presence of staurosporine, amylase secretion induced by carbachol was linear for at least 60 min. Staurosporine had no effect on amylase release elicited by the Ca2+ ionophore A23187. It did, however, inhibit secretion induced by vasoactive intestinal peptide, although with a reduced potency relative to its effects on amylase release stimulated by TPA, carbachol, and cholecystokinin (IC50 = 34 +/- 17 nM). These results indicate that staurosporine is a potent inhibitor of protein kinase C activity in pancreatic acini and that protein kinase C has an important role as an intracellular mediator of digestive enzyme secretion induced by cholecystokinin and carbachol in the acinar cell. In addition, a separate staurosporine-insensitive coupling pathway, most likely involving Ca2+, appears to be equally important and can maintain long-term secretion in the absence of functional protein kinase C activity.
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PMID:Effects of staurosporine on protein kinase C and amylase secretion from pancreatic acini. 247 31

When dispersed chief cells from guinea pig stomach were first incubated with cholecystokinin (CCK), washed, and then reincubated with CCK in fresh incubation solution, the stimulation of pepsinogen secretion and the rise in intracellular calcium concentration during the second incubation were reduced. CCK did not cause residual enzyme secretion but caused desensitization that was rapid, temperature dependent, dependent on extracellular calcium, reversible with time, and prevented but not reversed by CCK receptor antagonists. Cholecystokinin octapeptide (CCK-8) caused desensitization over the same range of concentrations that stimulate pepsinogen secretion, whereas the concentration of gastrin required to cause maximal desensitization was greater than that required to cause maximal stimulation of enzyme secretion. CCK-8 caused heterologous desensitization of pepsinogen secretion stimulated by agonists that interact with receptors to cause mobilization of cellular calcium and activation of protein kinase C or by agonists that bypass receptors to activate these mediators directly; however, CCK-8 did not induce desensitization of the stimulation caused by any secretagogue whose actions are mediated by adenosine 3',5'-cyclic monophosphate. Because CCK-8 caused greater desensitization of secretion stimulated by agonists that interact with receptors than by agonists that bypass receptors, it is likely that receptor modulation as well as a postreceptor action contribute to the ability of CCK to cause desensitization of pepsinogen secretion from chief cells.
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PMID:Cholecystokinin-induced desensitization of pepsinogen secretion from chief cells. 249 49

1,2-Bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid acetoxymethyl ester (BAPTA/AM), an intracellular calcium [( Ca2+]i) chelator, was used to investigate the role of [Ca2+]i in acid secretory activity and protein phosphorylation in parietal cells from rabbit. Chelation of extracellular calcium [( Ca2+]o) with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid did not prevent the initial carbachol-induced elevation of [Ca2+]i as measured with the fluorescent Ca2+ probe, fura-2, and only partially inhibited [14C]-aminopyrine (AP) accumulation, an indirect indicator of acid secretory activity. [Ca2+]i chelation with BAPTA/AM eliminated carbachol-stimulated increases in [Ca2+]i and AP accumulation but only transiently reduced histamine stimulation of AP accumulation. Carbachol increased phosphorylation of a 36-kDa, pI approximately 7 protein (pp36) and transient phosphorylation of a 28-kDa, pI approximately 5 protein (pp28), whereas histamine increased phosphorylation of 40-kDa, pI approximately 6.5 (pp40) and 27-kDa, pI approximately 6.2 (pp27) proteins. Phosphorylation of pp36 and pp28 were mimicked by the protein kinase C activator, 12-O-tetradecanoylphorbol-13-acetate (TPA) and the calcium ionophore, ionomycin, respectively. Two other phosphoproteins with molecular weights of 66,000 and pIs of 5.7 and 5.9 were also phosphorylated in response to TPA and carbachol. Chelation of [Ca2+]i and [Ca2+]o blocked carbachol-induced phosphorylation of pp28 and pp36 and ionomycin phosphorylation of pp28 but not TPA-stimulated phosphorylation of pp36 or the two pp66s or histamine-stimulated phosphorylation of pp27 or pp40. Chelation of [Ca2+]i alone did not block increases in [Ca2+]i or phosphorylation of pp28 in response to ionomycin. Both pp28 and pp36 were localized in both microsomal and cytosolic fractions of cells, which suggests involvement in cytoskeleton-membrane interactions. These phosphoproteins could be common elements of Ca2+-dependent stimulus-secretion coupling as similar proteins were phosphorylated by carbachol and cholecystokinin (CCK) in chief cells. Based on data with TPA and ionomycin, both protein kinase C and an as yet unidentified Ca2+-dependent protein kinase(s) appear to be activated upon stimulation with cholinergic agonists and CCK.
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PMID:Carbachol-induced protein phosphorylation in parietal cells: regulation by [Ca2+]i. 250 25

We examined the effects of various stimuli on immunoreactive insulin (IRI) and glucagon (IRG) release from perfused pancreases isolated from control and streptozocin-induced diabetic (STZ-D) rats. Diabetes was induced by injecting 30 mg/kg STZ into rats fasted for 16-18 h 12-17 days before our experiments. Glucose (11.1 mM) caused a distinct biphasic pattern of IRI release from the control pancreas, whereas the first phase was marginal and the second phase was absent in the diabetic pancreas. Arginine (20 mM)-induced IRI release was similar in both groups, whereas IRG release was greater in the control rats than in the diabetic rats. Thus, this model of STZ-D simulates a certain class of non-insulin-dependent diabetes mellitus (NIDDM). In these diabetic animals, the cholecystokinin (CCK) analogue ceruletide (620 pM) caused a significantly greater increase in IRI release in the presence of 5.6 mM glucose than in the control rats, but ceruletide caused a similar IRG release in both groups. Because CCK and ceruletide stimulate phosphoinositide turnover in pancreatic islets, we examined the effects of carbachol and phorbol ester TPA on IRI release in the presence of 5.6 mM glucose. Carbachol (10 microM), which is thought to generate similar second messengers as ceruletide, induced greater IRI release in diabetic than in control rats. TPA (100 nM) caused a significantly greater increase in IRI release from the diabetic than the control pancreas. Our results demonstrate that the insulin-releasing mechanism involved in protein kinase C activation is enhanced in this model of NIDDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased beta-cell secretory responsiveness to ceruletide and TPA in streptozocin-induced mildly diabetic rats. 252 62

Changes in the cellular content of 1,2-diacylglycerol (DAG) in isolated rat pancreatic acini in response to agonist stimulation were studied using a sensitive mass assay. When acini were stimulated by 10 nM COOH-terminal cholecystokinin-octapeptide (CCK8), the increase in DAG was biphasic, consisting of an early peak at 5 s and a second, larger, gradual increase that was maximal by 15 min. The basal level of DAG in acini was 1.04 nmol/mg of protein, which was increased to 1.24 nmol/mg of protein at 5 s and 2.76 nmol/mg of protein at 30 min. In comparison, the increase in DAG stimulated by 30 pM CCK8, a submaximal concentration for amylase release, was monophasic, increasing without an early peak but sustained to 60 min. Other Ca2+-mobilizing secretagogues such as carbamylcholine and bombesin increased DAG in acini, whereas vasoactive intestinal peptide, which acts to increase cAMP, had no effect. Phorbol ester and Ca2+ ionophore also stimulated DAG production. Analysis of the mass level of inositol 1,4,5-trisphosphate (1,4,5-IP3) showed that the generation of 1,4,5-IP3 stimulated by 10 nM CCK8 peaked at 5 s, a finding consistent with the early peak of DAG. The basal level was 4.7 pmol/mg of protein, which was increased to 144.6 pmol/mg of protein at 5 s by 10 nM CCK8. The levels of 1,4,5-IP3 then returned toward basal in contrast to the gradual and sustained increase of DAG. The dose dependencies of 1,4,5-IP3 and DAG formation at 5 s with respect to CCK8 were almost identical. This suggests that phosphatidylinositol 4,5-bisphosphate hydrolysis is a major source of the early increase in DAG but not of the sustained increase in DAG. Therefore, a possible contribution of phosphatidylcholine hydrolysis to DAG formation was examined utilizing acini prelabeled with [3H]choline. CCK8 (1 nM) maximally increased [3H]choline metabolite release by 133% of control at 30 min. Separation of these metabolites by thin layer chromatography showed that the products of CCK8-stimulated release were almost entirely phosphorylcholine, indicating the activation of a phospholipase C specific for phosphatidylcholine. By comparison, 1 nM CCK8 stimulated [3H]ethanolamine metabolite release from [3H]ethanolamine-labeled acini by only 22% of control. These data suggest that CCK stimulates both phosphatidylinositol 4,5-bisphosphate and phosphatidylcholine hydrolysis; the latter may contribute to the sustained generation of DAG and hence the maintained activation of protein kinase C.
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PMID:Multiple sources of 1,2-diacylglycerol in isolated rat pancreatic acini stimulated by cholecystokinin. Involvement of phosphatidylinositol bisphosphate and phosphatidylcholine hydrolysis. 254 32


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